Using color photometry to separate transiting exoplanets from false positives

The color signature of the transit of HD 209458: Discrepancies between stellar atmospheric models and observations

Exoplanetary transits produce a double-horned color signature that is distinct from both binaries and blends and can thus be used to separate exoplanets from false positives in transit searches. Color photometry with precision sufficient to detect this signal in transits of HD 209458 is available in the literature. Analysis of these observations reveals that, while the signature does exhibit th...

Potential of Photometric Searches for Transiting Planets

Many ground-based photometric surveys are now under way, and five of them have been successful at detecting transiting exoplanets. Nevertheless, detecting transiting planets has turned out to be much more challenging than initially anticipated. Transit surveys have learnt that an overwhelming number of false positives and confusion scenarios, combined with an intermittent phase coverage and sys...

Potential of Photometric Searchs for Transiting Planets

Many ground-based photometric surveys are now under way, and five of them have been successful at detecting transiting exoplanets. Nevertheless, detecting transiting planets has turned out to be much more challenging than initially anticipated. Transit surveys have learnt that an overwhelming number of false positives and confusion scenarios, combined with an intermittent phase coverage and sys...

High Precision Photometry of Transiting Exoplanets

Searching for exoplanets in the Kepler public data

NASA’s Kepler mission to search for extrasolar planets has collected data from hundreds of thousands of star systems, and has discovered nearly 1000 confirmed exoplanets to date in addition to over 3000 unconfirmed candidates. The mission detects exoplanets using transit photometry, which detects the transit of a planet in front of a star as transient drops in stellar intensity. Raw data is col...